CN210892148U - Siphon type energy-saving water boiler - Google Patents

Abstract

The utility model relates to an energy-conserving water dispensers of hydrocone type, in this water dispensers structure, the inboard top position of main hot-water tank is provided with auxiliary water tank, and auxiliary water tank passes through the siphon with the cold water storage cistern and links to each other. The main hot water tank is provided with a spiral coil pipe along the circumferential direction, the top end of the coil pipe is communicated with the bottom of the side face of the auxiliary water tank, and the bottom end of the coil pipe is communicated with the top of the side face of the hot water tank. The utility model discloses in, water flows through gravity, and the siphon causes the cold water in the cold water tank to the auxiliary water tank and the coil pipe in, need not power consumptive. The cold water in the coil pipe is heated into warm water by the heat emitted by the main hot water tank, so that the initial temperature of the inlet water of the auxiliary hot water tank is increased. The utility model discloses an energy-conserving water dispensers of hydrocone type consumes energy fewly, and the heat utilization rate is high to, can also supply the drinking water of three kinds of different temperatures of cold, temperature, heat simultaneously, have very strong practicality.

Description

Siphon type energy-saving water boiler

Technical Field

The utility model belongs to the technical field of water dispensers, a energy-conserving water dispenser of hydrocone type is related to.

Background

The electric heating water boiler is a device for heating raw water into boiled water by using electric energy, can realize uninterrupted hot water supply and meet the requirement of drinking boiled water by more people. According to the inventor, the existing water boiler enters a heat preservation state after water is boiled (100 ℃), so that the heat of the hot water tank is dissipated without any reason, the heat loss is large, and the heat utilization rate is low.

Disclosure of Invention

The utility model provides a siphon type energy-saving water boiler which has high heat utilization rate and can simultaneously supply cold and warm drinking water with three different temperatures.

The utility model discloses the scheme that adopts does:

a siphon type energy-saving water boiler comprises a water boiler body, wherein a cold water tank, a warm water tank and a hot water tank are arranged in the water boiler body, the cold water tank is higher than the warm water tank and the hot water tank, and the cold water tank and the warm water tank are both positioned on the left side of the hot water tank;

a stainless steel heating plate for heating water is arranged in the hot water tank, the stainless steel heating plate divides the hot water tank into an upper main hot water tank and a lower auxiliary hot water tank, the bottoms of the auxiliary hot water tank and the hot water tank are the same height, and the height of the box body of the hot water tank is higher than that of the auxiliary hot water tank; a thermometer is arranged on the main hot water tank, and the stainless steel heating plate and the thermometer are interlocked to control the water temperature in the main hot water tank to be kept at 100 ℃; tap water is introduced into the cold water tank through a cold water inlet pipe, an electric regulating valve and a water purifier are installed on the cold water inlet pipe, a first liquid level meter is installed on the cold water tank, and the electric regulating valve and the first liquid level meter control the liquid level of the cold water tank to be at a first set liquid level in a linkage mode; the bottom of the cold water tank is connected with the main hot water tank through a first connecting pipe, a first electric ball valve is mounted on the first connecting pipe, a second liquid level meter is mounted on the main hot water tank, and the first electric ball valve and the second liquid level meter control the liquid level of the main hot water tank to be in a second set liquid level in a linkage mode; an auxiliary water tank is further arranged at the top of the inner side of the main hot water tank, a spiral coil pipe is fixedly arranged on the outer wall surface of the main hot water tank along the circumferential direction, the top end of the coil pipe is communicated with the bottom of the side surface of the auxiliary water tank, and the bottom end of the coil pipe is communicated with the top of the side surface of the hot water tank; the auxiliary water tank is connected with the cold water tank through a siphon, the tops of the cold water tank, the main hot water tank and the auxiliary water tank are communicated with the atmosphere, and the first set liquid level is higher than the second set liquid level and the liquid level in the auxiliary water tank; the bottom of the warm water tank is connected with the auxiliary hot water tank through a second connecting pipe, a second electric ball valve is mounted on the second connecting pipe, a third liquid level meter is mounted on the auxiliary hot water tank, and the second electric ball valve and the third liquid level meter control the liquid level in the auxiliary hot water tank to be full of water in a linkage manner; and the top of the air outlet pipe is higher than that of the auxiliary hot water tank.

Furthermore, the cold water tank, the hot water tank and the warm water tank are all made of stainless steel.

Furthermore, the water boiler body is a sandwich plate, and heat insulation materials are filled in the sandwich layer.

Furthermore, the sandwich plate is made of plastic.

Further, the first liquid level meter, the second liquid level meter and the third liquid level meter are all magnetic turning plate type liquid level meters.

Further, the thermometer adopts a thermal resistance type or a thermocouple type.

The beneficial effects of the utility model reside in that:

the utility model discloses an among the water boiler structure, water flows through gravity, causes auxiliary water tank and coil pipe through the cold water of siphon in with the cold water tank in, does not need power consumptive. The cold water in the coil pipe is heated into warm water by the heat emitted by the main hot water tank and enters the warm water tank, the initial water inlet temperature of the auxiliary hot water tank is improved, and the stainless steel heating plate can heat the water in the auxiliary hot water tank while heating the water in the main hot water tank. Meanwhile, when the water temperature in the auxiliary hot water tank is higher than that in the main hot water tank, heat can be conducted to one side of the main hot water tank through the stainless steel heating plate and the wall surface of the hot water tank. Therefore, the siphon energy-saving water boiler of the utility model has the advantages of low energy consumption, high heat utilization rate, and strong practicability, and can simultaneously supply drinking water with three different temperatures, namely cold temperature and hot temperature.

Drawings

FIG. 1 is a schematic structural view of the energy-saving water boiler of the present invention;

reference numerals: 1-water boiler body, 2-cold water tank, 3-main hot water tank, 4-warm water tank, 5-auxiliary hot water tank, 6-siphon, 7-auxiliary water tank, 8-coil pipe, 9-electric regulating valve, 10-cold water inlet pipe, 11-first liquid level meter, 12-first connecting pipe, 13-first electric ball valve, 14-second liquid level meter, 15-thermometer, 16-stainless steel heating plate, 17-second connecting pipe, 18-second electric ball valve, 19-third liquid level meter, 20-air outlet pipe and 21-water purifier.

Detailed Description

The siphon energy saving water boiler of the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

The siphon type energy-saving water boiler shown in fig. 1 comprises a water boiler body 1, wherein a cold water tank 2, a warm water tank 4 and a hot water tank are arranged in the water boiler body 1, the cold water tank 2 is higher than the warm water tank 4 and the hot water tank, and the cold water tank 2 and the warm water tank 4 are both positioned on the left side of the hot water tank.

A stainless steel heating plate 16 for heating water is arranged in the hot water tank, the hot water tank is divided into a main hot water tank 3 at the upper part and an auxiliary hot water tank 5 at the lower part by the stainless steel heating plate 16, the bottoms of the auxiliary hot water tank 5 and the hot water tank 4 are at the same height, and the tank body height of the hot water tank 4 is higher than that of the auxiliary hot water tank 5. A thermometer 15 is installed on the main hot water tank 3, and a stainless steel heating plate 16 and the thermometer 15 are interlocked to control the water temperature in the main hot water tank 3 to be kept at 100 ℃. Tap water is led into the cold water tank 2 through the cold water inlet pipe 10, an electric regulating valve 9 and a water purifier 21 are installed on the cold water inlet pipe 10, a first liquid level meter 11 is installed on the cold water tank 2, and the liquid level of the cold water tank 2 is controlled to be at a first set liquid level through linkage of the electric regulating valve 9 and the first liquid level meter 11. 2 bottoms of cold water storage cistern link to each other through first connecting pipe 12 with main hot water tank 3, install first electronic ball valve 13 on the first connecting pipe 12, install second level gauge 14 on the main hot water tank 3, and first electronic ball valve 13 is in the second with 3 liquid levels of main hot water tank of 14 interlocking control of second level gauge and sets for the liquid level. The inside top position of 3 inboard top positions of main hot water tank still are provided with auxiliary water tank 7, and fixed being provided with spiral coil pipe 8 along circumference on 3 outer wall surfaces of main hot water tank, 8 tops of coil pipe are linked together with 7 side bottom positions of auxiliary water tank, and 8 bottoms of coil pipe are linked together with 4 side top positions of warm water tank. The auxiliary water tank 7 is connected with the cold water tank 2 through a siphon 6, the tops of the cold water tank 2, the main hot water tank 3 and the auxiliary water tank 7 are communicated with the atmosphere, and the first set liquid level is higher than the second set liquid level and the liquid level in the auxiliary water tank 7. The bottom of the warm water tank 4 is connected with the auxiliary hot water tank 5 through a second connecting pipe 17, a second electric ball valve 18 is installed on the second connecting pipe 17, a third liquid level meter 19 is installed on the auxiliary hot water tank 5, and the liquid level in the auxiliary hot water tank 5 is controlled to be full through linkage of the second electric ball valve 18 and the third liquid level meter 19. The top of the side surface of the auxiliary hot water tank 5 is provided with an air outlet pipe 20 which penetrates out of the water boiler body 1 and is communicated with the atmosphere, and the top of the air outlet pipe 20 is higher than the auxiliary hot water tank 5.

In this embodiment, the cold water tank 2, the hot water tank, and the warm water tank 4 are made of stainless steel. The water boiler body 1 is a sandwich plate, heat-insulating materials are filled in the sandwich layer, and the sandwich plate is made of plastics. The first liquid level meter 11, the second liquid level meter 14 and the third liquid level meter 19 are all magnetic turning plate type liquid level meters. The thermometer 15 is of a thermal resistance type or a thermocouple type.

The working principle of the siphon energy-saving water boiler is as follows:

through electrical control valve 9 and first level gauge 11 for the first liquid level of setting for in cold water tank 2 keeps invariable, and when the liquid level was less than the first liquid level of setting for, electrical control valve 9 opened, and to moisturizing to the first liquid level of setting for in the cold water tank 2. Likewise, the first motorized ball valve 13 and the second level gauge 14 interlock to maintain a constant second set level in the main hot water tank 3. When the water in the sub hot water tank 5 is not in a full water state, the second electric ball valve 18 is opened, and the warm water is replenished into the sub hot water tank 5 from the warm water tank 4. Meanwhile, the cold water is heated by the coil pipe 8 from the siphon 6 and the auxiliary tank 7, and then is supplied to the warm water tank 4. After the sub hot water tank 5 is full of water, the second electric ball valve 18 is closed.

The energy-conserving water dispensers of hydrocone type in this embodiment can provide the drinking water of cold, temperature, three kinds of different temperatures simultaneously, and cold water storage cistern 2, warm water storage cistern 4, main hot water storage cistern 3 and vice hot water storage cistern 4 all link there is the delivery pipe promptly, all installs the delivery valve on each delivery pipe, does not give unnecessary details here.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited to the embodiments described above, but rather is described in the embodiments and the description only to illustrate the principles of the invention and that various changes and modifications may be made without departing from the spirit and scope of the invention, the scope of which is defined by the appended claims, the description and the equivalents thereof.

Claims (6)

1. A siphon type energy-saving water boiler is characterized by comprising a water boiler body (1), wherein a cold water tank (2), a warm water tank (4) and a hot water tank are arranged in the water boiler body (1), the cold water tank (2) is higher than the warm water tank (4) and the hot water tank, and the cold water tank (2) and the warm water tank (4) are both positioned on the left side of the hot water tank;

a stainless steel heating plate (16) for heating water is arranged in the hot water tank, the stainless steel heating plate (16) divides the hot water tank into a main hot water tank (3) at the upper part and an auxiliary hot water tank (5) at the lower part, the bottoms of the auxiliary hot water tank (5) and the hot water tank (4) are the same height, and the height of the hot water tank (4) is higher than that of the auxiliary hot water tank (5); a thermometer (15) is arranged on the main hot water tank (3), and a stainless steel heating plate (16) and the thermometer (15) are interlocked to control the water temperature in the main hot water tank (3) to be kept at 100 ℃; tap water is introduced into the cold water tank (2) through the cold water inlet pipe (10), an electric regulating valve (9) and a water purifier (21) are installed on the cold water inlet pipe (10), a first liquid level meter (11) is installed on the cold water tank (2), and the electric regulating valve (9) and the first liquid level meter (11) are in linkage control to enable the liquid level of the cold water tank (2) to be at a first set liquid level; the bottom of the cold water tank (2) is connected with the main hot water tank (3) through a first connecting pipe (12), a first electric ball valve (13) is installed on the first connecting pipe (12), a second liquid level meter (14) is installed on the main hot water tank (3), and the first electric ball valve (13) and the second liquid level meter (14) are used for controlling the liquid level of the main hot water tank (3) to be in a second set liquid level in a linkage mode; an auxiliary water tank (7) is further arranged at the top of the inner side of the main hot water tank (3), a spiral coil (8) is fixedly arranged on the outer wall surface of the main hot water tank (3) along the circumferential direction, the top end of the coil (8) is communicated with the bottom of the side surface of the auxiliary water tank (7), and the bottom end of the coil (8) is communicated with the top of the side surface of the hot water tank (4); the auxiliary water tank (7) is connected with the cold water tank (2) through a siphon (6), the tops of the cold water tank (2), the main hot water tank (3) and the auxiliary water tank (7) are communicated with the atmosphere, and the first set liquid level is higher than the second set liquid level and the liquid level in the auxiliary water tank (7); the bottom of the warm water tank (4) is connected with the auxiliary hot water tank (5) through a second connecting pipe (17), a second electric ball valve (18) is installed on the second connecting pipe (17), a third liquid level meter (19) is installed on the auxiliary hot water tank (5), and the second electric ball valve (18) and the third liquid level meter (19) are used for controlling the liquid level in the auxiliary hot water tank (5) to be full of water in a linkage mode; an air outlet pipe (20) communicated with the atmosphere is arranged at the top of the side surface of the auxiliary hot water tank (5), and the top of the air outlet pipe (20) is higher than that of the auxiliary hot water tank (5).

2. The siphon type energy-saving water boiler according to claim 1, wherein the cold water tank (2), the hot water tank and the warm water tank (4) are all made of stainless steel.

3. The siphon type energy-saving water boiler according to claim 1, wherein the boiler body (1) is a sandwich plate, and the sandwich is filled with heat insulation materials.

4. The siphonic energy-saving water boiler according to claim 3, wherein the sandwich plate is made of plastic.

5. The siphon type energy-saving water boiler according to claim 1, wherein the first level gauge (11), the second level gauge (14) and the third level gauge (19) are all magnetic flip-board type level gauges.

6. The siphon type energy-saving water boiler according to claim 1, wherein the thermometer (15) is of a thermal resistance type or a thermocouple type.

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